/*	SCCS Id: @(#)tclib.c	3.4	1996/02/25	*/
/* Copyright (c) Robert Patrick Rankin, 1995			  */
/* NetHack may be freely redistributed.  See license for details. */

/* termcap library implementation */

#include "config.h"

#ifndef TERMCAP		/* name of default termcap file */
#define TERMCAP "/etc/termcap"
#endif
#ifndef TCBUFSIZ	/* size of tgetent buffer; Unix man page says 1024 */
#define TCBUFSIZ 1024
#endif
#define ESC	'\033'	/* termcap's '\E' */
#define BEL	'\007'	/* ANSI C's '\a' (we assume ASCII here...) */

/* exported variables, as per man page */
char  PC;
char *BC, *UP;
short ospeed;

/* exported routines */
int   FDECL(tgetent,  (char *,const char *));
int   FDECL(tgetflag, (const char *));
int   FDECL(tgetnum,  (const char *));
char *FDECL(tgetstr,  (const char *,char **));
char *FDECL(tgoto,    (const char *,int,int));
char *FDECL(tparam,   (const char *,char *,int,int,int,int,int));
void  FDECL(tputs,    (const char *,int,int (*)()));

/* local support data */
static char *tc_entry;
static char bc_up_buf[24];
#ifndef NO_DELAY_PADDING
/* `ospeed' to baud rate conversion table, adapted from GNU termcap-1.2 */
static short baud_rates[] = {
	0,   50,   75,  110,  135,  150,
# ifdef VMS
	    300,  600, 1200, 1800, 2000, 2400, 3600, 4800, 7200,
# else		/* assume Unix */
      200,  300,  600, 1200, 1800,       2400,       4800,
# endif
     9600, -192, -384,		/* negative is used as `100 * abs(entry)' */
# ifdef VMS
     -576, -768, -1152,
# endif
};
#endif	/* !NO_DELAY_PADDING */

/* local support code */
static int	   FDECL(tc_store, (const char *,const char *));
static char	  *FDECL(tc_find,  (FILE *,const char *,char *,int));
static char	  *FDECL(tc_name,  (const char *,char *));
static const char *FDECL(tc_field, (const char *,const char **));

#ifndef min
#define min(a,b) ((a)<(b)?(a):(b))
#endif

/* retrieve the specified terminal entry and return it in `entbuf' */
int
tgetent(entbuf, term)
    char *entbuf;	/* size must be at least [TCBUFSIZ] */
    const char *term;
{
    int result;
    FILE *fp;
    char *tc = getenv("TERMCAP");

    tc_entry = entbuf;
    if (!entbuf || !term)
	return -1;
    /* if ${TERMCAP} is found as a file, it's not an inline termcap entry */
    if ((fp = fopen(tc ? tc : TERMCAP, "r")) != 0)
	tc = 0;
    /* if ${TERMCAP} isn't a file and `term' matches ${TERM}, use ${TERMCAP} */
    if (tc) {
	char *tm = getenv("TERM");
	if (tm && strcmp(tm, term) == 0)
	    return tc_store(term, tc);
	fp = fopen(TERMCAP, "r");
    }
    /* otherwise, look `term' up in the file */
    if (fp) {
	char wrkbuf[TCBUFSIZ];
	tc = tc_find(fp, term, wrkbuf, (int)(sizeof wrkbuf - strlen(term)));
	result = tc_store(term, tc);
	(void) fclose(fp);
    } else {
	result = -1;
    }
    return result;
}

/* copy the entry into the output buffer */
static int
tc_store(trm, ent)
    const char *trm, *ent;
{
    const char *bar, *col;
    char *s;
    size_t n;
    int k;

    if (!ent || !*ent || !trm || !*trm || (col = index(ent, ':')) == 0)
	return 0;
    (void) strcpy(tc_entry, trm);
    if (((bar = index(ent, '|')) != 0 && bar < col)
     || ((long)(n = strlen(trm)) == (long)(col - ent)
	    && strncmp(ent, trm, n) == 0))
	(void) strcat(tc_entry, col);
    else if (*ent == ':')
	(void) strcat(tc_entry, ent);
    else
	(void) strcat(strcat(tc_entry, ":"), ent);

    /* initialize global variables */
    k = tgetnum("pc");
    PC = (k == -1) ? '\0' : (char)k;
    BC = s = bc_up_buf;
    if (!tgetstr("bc", &s))  (void)strcpy(s, "\b"),  s += 2;
    UP = s;
    (void)tgetstr("up", &s);
#ifndef NO_DELAY_PADDING
    /* caller must set `ospeed' */
    if ((int)ospeed >= (int)SIZE(baud_rates))
	ospeed = (short)(SIZE(baud_rates) - 1);
    else if (ospeed < 0)
	ospeed = 0;
#endif	/* !NO_DELAY_PADDING */

    return 1;
}

/* search for an entry in the termcap file */
static char *
tc_find(fp, term, buffer, bufsiz)
    FILE *fp;
    const char *term;
    char *buffer;
    int bufsiz;
{
    int in, len, first, skip;
    char *ip, *op, *tc_fetch, tcbuf[TCBUFSIZ];

    buffer[0] = '\0';
    do {
	ip = tcbuf,  in = min(bufsiz,TCBUFSIZ);
	first = 1,  skip = 0;
	/* load entire next entry, including any continuations */
	do {
	    if (!fgets(ip, min(in,BUFSIZ), fp))  break;
	    if (first)  skip = (*ip == '#'),  first = 0;
	    len = (int)strlen(ip);
	    if (!skip && len > 1
	     && *(ip + len - 1) == '\n' && *(ip + len - 2) == '\\')
		len -= 2;
	    ip += len,  in -= len;
	} while (*(ip - 1) != '\n' && in > 0);
	if (ferror(fp) || ip == buffer || *(ip - 1) != '\n')
	    return (char *)0;
	*--ip = '\0';		/* strip newline */
	if (!skip)  ip = tc_name(term, tcbuf);
    } while (skip || !ip);

    /* we have the desired entry; strip cruft and look for :tc=other: */
    tc_fetch = 0;
    for (op = buffer; *ip; ip++) {
	if (op == buffer || *(op - 1) != ':'
	 || (*ip != ' ' && *ip != '\t' && *ip != ':'))
	    *op++ = *ip,  bufsiz -= 1;
	if (ip[0] == ':' && ip[1] == 't' && ip[2] == 'c' && ip[3] == '=') {
	    tc_fetch = &ip[4];
	    if ((ip = index(tc_fetch, ':')) != 0)  *ip = '\0';
	    break;
	}
    }
    *op = '\0';

    if (tc_fetch) {
	rewind(fp);
	tc_fetch = tc_find(fp, tc_fetch, tcbuf, min(bufsiz,TCBUFSIZ));
	if (!tc_fetch)
	    return (char *)0;
	if (op > buffer && *(op - 1) == ':' && *tc_fetch == ':')
	    ++tc_fetch;
	strcpy(op, tc_fetch);
    }
    return buffer;
}

/* check whether `ent' contains `nam'; return start of field entries */
static char *
tc_name(nam, ent)
    const char *nam;
    char *ent;
{
    char *nxt, *lst, *p = ent;
    size_t n = strlen(nam);

    if ((lst = index(p, ':')) == 0)  lst = p + strlen(p);

    while (p < lst) {
	if ((nxt = index(p, '|')) == 0 || nxt > lst)  nxt = lst;
	if ((long)(nxt - p) == (long)n && strncmp(p, nam, n) == 0)
	    return lst;
	p = nxt + 1;
    }
    return (char *)0;
}

/* look up a numeric entry */
int
tgetnum(which)
    const char *which;
{
    const char *q, *p = tc_field(which, &q);
    char numbuf[32];
    size_t n;

    if (!p || p[2] != '#')
	return -1;
    p += 3;
    if ((n = (size_t)(q - p)) >= sizeof numbuf)
	return -1;
    (void) strncpy(numbuf, p, n);
    numbuf[n] = '\0';
    return atoi(numbuf);
}

/* look up a boolean entry */
int
tgetflag(which)
    const char *which;
{
    const char *p = tc_field(which, (const char **)0);

    return (!p || p[2] != ':') ? 0 : 1;
}

/* look up a string entry; update `*outptr' */
char *
tgetstr(which, outptr)
    const char *which;
    char **outptr;
{
    int n;
    char c, *r, *result;
    const char *q, *p = tc_field(which, &q);

    if (!p || p[2] != '=')
	return (char *)0;
    p += 3;
    if ((q = index(p, ':')) == 0)  q = p + strlen(p);
    r = result = *outptr;
    while (p < q) {
	switch ((*r = *p++)) {
	 case '\\':
	    switch ((c = *p++)) {
	     case 'E':	*r = ESC;   break;
	     case 'a':	*r = BEL;   break;
	     case 'b':	*r = '\b';  break;
	     case 'f':	*r = '\f';  break;
	     case 'n':	*r = '\n';  break;
	     case 'r':	*r = '\r';  break;
	     case 't':	*r = '\t';  break;
	     case '0': case '1': case '2': case '3':
	     case '4': case '5': case '6': case '7':
			n = c - '0';
			if (*p >= '0' && *p <= '7')  n = 8 * n + (*p++ - '0');
			if (*p >= '0' && *p <= '7')  n = 8 * n + (*p++ - '0');
			*r = (char)n;
			break;
	  /* case '^': case '\\': */
	     default:	*r = c;     break;
	    }
	    break;
	 case '^':
	    *r = (*p++ & 037);
	    if (!*r)  *r = (char)'\200';
	    break;
	 default:
	    break;
	}
	++r;
    }
    *r++ = '\0';
    *outptr = r;
    return result;
}

/* look for a particular field name */
static const char *
tc_field(field, tc_end)
    const char *field;
    const char **tc_end;
{
    const char *end, *q, *p = tc_entry;

    end = p + strlen(p);
    while (p < end) {
	if ((p = index(p, ':')) == 0)
	    break;
	++p;
	if (p[0] == field[0] && p[1] == field[1]
	 && (p[2] == ':' || p[2] == '=' || p[2] == '#' || p[2] == '@'))
	    break;
    }
    if (tc_end) {
	if (p) {
	    if ((q = index(p + 2, ':')) == 0)  q = end;
	} else
	    q = 0;
	*tc_end = q;
    }
    return p;
}

static char cmbuf[64];

/* produce a string which will position the cursor at <row,col> if output */
char *
tgoto(cm, col, row)
    const char *cm;
    int col, row;
{
    return tparam(cm, cmbuf, (int)(sizeof cmbuf), row, col, 0, 0);
}

/* format a parameterized string, ala sprintf */
char *
tparam(ctl, buf, buflen, row, col, row2, col2)
    const char *ctl;	/* parameter control string */
    char *buf;		/* output buffer */
    int buflen;		/* ought to have been `size_t'... */
    int row, col, row2, col2;
{
    int atmp, ac, av[5];
    char c, *r, *z, *bufend, numbuf[32];
    const char *fmt;
#ifndef NO_SPECIAL_CHARS_FIXUP
    int bc = 0, up = 0;
#endif

    av[0] = row,  av[1] = col,  av[2] = row2,  av[3] = col2,  av[4] = 0;
    ac = 0;
    r = buf,  bufend = r + buflen - 1;
    while (*ctl) {
	if ((*r = *ctl++) == '%') {
	    if (ac > 4)  ac = 4;
	    fmt = 0;
	    switch ((c = *ctl++)) {
	     case '%':			break;  /* '%' already copied */
	     case 'd':	fmt = "%d";	break;
	     case '2':	fmt = "%02d";	break;
	     case '3':	fmt = "%03d";	break;
	     case '+':	/*FALLTHRU*/
	     case '.':	*r = (char)av[ac++];
			if (c == '+')  *r += *ctl++;
			if (!*r) {
			    *r = (char)'\200';
			} else {
#ifndef NO_SPECIAL_CHARS_FIXUP
			    /* avoid terminal driver intervention for
			       various control characters, to prevent
			       LF from becoming CR+LF, for instance; only
			       makes sense if this is a cursor positioning
			       sequence, but we have no way to check that */
			    while (index("\004\t\n\013\f\r", *r)) {
				if (ac & 1) {		/* row */
				    if (!UP || !*UP)  break;	/* can't fix */
				    ++up;   /* incr row now, later move up */
				} else {		/* column */
				    if (!BC || !*BC)  break;	/* can't fix */
				    ++bc;   /* incr column, later backspace */
				}
				(*r)++;
			    }
#endif	/* !NO_SPECIAL_CHARS_FIXUP */
			}						break;
	     case '>':	if (av[ac] > (*ctl++ & 0377))
			    av[ac] += *ctl;
			++ctl;						break;
	     case 'r':	atmp = av[0];  av[0] = av[1];  av[1] = atmp;
			atmp = av[2];  av[2] = av[3];  av[3] = atmp;
			--r;						break;
	     case 'i':	++av[0];  ++av[1];  ++av[2];  ++av[3];
			--r;						break;
	     case 'n':	av[0] ^= 0140;  av[1] ^= 0140;
			av[2] ^= 0140;  av[3] ^= 0140;
			--r;						break;
	     case 'B':	av[0] = ((av[0] / 10) << 4) + (av[0] % 10);
			av[1] = ((av[1] / 10) << 4) + (av[1] % 10);
			av[2] = ((av[2] / 10) << 4) + (av[2] % 10);
			av[3] = ((av[3] / 10) << 4) + (av[3] % 10);
			--r;						break;
	     case 'D':	av[0] -= (av[0] & 15) << 1;
			av[1] -= (av[1] & 15) << 1;
			av[2] -= (av[2] & 15) << 1;
			av[3] -= (av[3] & 15) << 1;
			--r;						break;
	     default:	*++r = c;	break;	/* erroneous entry... */
	    }
	    if (fmt) {
		(void) sprintf(numbuf, fmt, av[ac++]);
		for (z = numbuf; *z && r <= bufend; z++)
		    *r++ = *z;
		--r;		/* will be re-incremented below */
	    }
	}
	if (++r > bufend)
	    return (char *)0;
    }
#ifndef NO_SPECIAL_CHARS_FIXUP
    if (bc || up) {
	while (--bc >= 0)
	    for (z = BC; *z && r <= bufend; z++)
		*r++ = *z;
	while (--up >= 0)
	    for (z = UP; *z && r <= bufend; z++)
		*r++ = *z;
	if (r > bufend)
	    return (char *)0;
    }
#endif	/* !NO_SPECIAL_CHARS_FIXUP */
    *r = '\0';
    return buf;
}

/* send a string to the terminal, possibly padded with trailing NULs */
void
tputs( string, range, output_func )
const char *string;	/* characters to output */
int range;		/* number of lines affected, used for `*' delays */
int (*output_func)();	/* actual output routine; return value ignored */
{
    register int c, num = 0;
    register const char *p = string;

    if (!p || !*p)
	return;

    /* pick out padding prefix, if any */
    if (*p >= '0' && *p <= '9') {
	do {		/* note: scale `num' by 10 to accommodate fraction */
	    num += (*p++ - '0'),  num *= 10;
	} while (*p >= '0' && *p <= '9');
	if (*p == '.')
	    ++p,  num += (*p >= '0' && *p <= '9') ? (*p++ - '0') : 0;
	if (*p == '*')
	    ++p,  num *= range;
    }

    /* output the string */
    while ((c = *p++) != '\0') {
	if (c == '\200')  c = '\0';	/* undo tgetstr's encoding */
	(void) (*output_func)(c);
    }

#ifndef NO_DELAY_PADDING
    /* perform padding */
    if (num) {
	long pad;

	/* figure out how many chars needed to produce desired elapsed time */
	pad = (long)baud_rates[ospeed];
	if (pad < 0)  pad *= -100L;
	pad *= (long)num;
	/* 100000 == 10 bits/char * (1000 millisec/sec scaled by 10) */
	num = (int)(pad / 100000L);	/* number of characters */

	c = PC;		/* assume output_func isn't allowed to change PC */
	while (--num >= 0)
	    (void) (*output_func)(c);
    }
#endif	/* !NO_DELAY_PADDING */

    return;
}

/*tclib.c*/
